Teleradiography

Teleradiography is a type of radiography that is widely used in medical diagnostics. It differs from conventional radiography in that the x-ray source is located about two meters from the patient.

This technique was developed to reduce distortion in X-ray images that can occur when using a closer source of radiation. X-rays emitted by the source pass through the patient's body and are recorded on a photographic plate or electronic detector.

Teleradiography is widely used in various fields of medicine, including orthopedics, dentistry and dental medicine, to diagnose various diseases and injuries of bones and joints. It can also be used to detect other diseases such as tumors and infections.

One advantage of teleradiography is that it provides more accurate images than conventional radiography. This allows doctors to more accurately determine the presence and nature of the disease and prescribe appropriate treatment.

However, like any type of radiography, teleradiography involves X-ray radiation, which can be harmful to health if used incorrectly or too frequently. Therefore, physicians and technicians who work with teleradiography must take all necessary precautions to protect themselves and their patients from radiation.

Overall, teleradiography is an important tool for the diagnosis and treatment of various diseases and injuries related to bones and joints. It provides more accurate images and can help doctors determine the best treatment for each patient.



Teleradiography: A type of x-ray that uses a 2-meter distance between the x-ray source and the patient. This method produces x-ray images with less distortion than when the source is located more closely.

Teleradiography is widely used in medical diagnostics and provides highly detailed images of bones and internal organs. This method is used to diagnose various diseases such as cancer, injuries, infections and other pathologies.

Teleradiography uses special equipment that allows you to obtain high-resolution images. Images can be obtained in both two-dimensional and three-dimensional formats, which simplifies and improves the diagnostic process.

One of the main advantages of teleradiography is the ability to obtain x-ray images with a lower radiation dose to the patient. This is especially important when conducting diagnostics in children and pregnant women, when minimizing radiation dose is a priority.

Teleradiography is one of the most common X-ray diagnostic methods and has a wide range of applications in medicine. It produces images with high detail and less distortion, making it a valuable tool for diagnosing and treating many diseases.



Teleradiography is a type of x-ray diagnostics that uses special electronic detectors to record x-rays and convert them into graphic images. The result is a more accurate image of the internal structure of organs and tissues, and also reduces the subjectivity of perception.

Teleradiography is widely used in medical practice to diagnose various diseases. It can be used to visualize the chest, abdomen, skeleton, cervical vertebrae, joint angles, etc. X-ray images obtained using teleradiography can be used to plan operations, monitor treatment, and diagnose diseases.

However, despite the advantages of teleradiography compared to traditional x-ray diagnostic methods (for example, reducing the risk of radiation exposure), it has some limitations. For example, its use may have a negative impact on the environment due to the use of radioactive isotopes. In addition, teleradiography does not visualize tissue features of organs, such as blood flow, mucus production, and tissue structure.

Overall, the use of teleradiography is an important tool in medicine to improve the diagnosis of many diseases. However, when using this method, it is necessary to take into account its advantages and disadvantages, and make the most of its capabilities to obtain accurate and informative results.